Selective Binding of Distamycin A Derivative to G-Quadruplex Structure [d(TGGGGT)]4

Guanine-rich nucleic acid sequences can adopt G-quadruplex structures stabilized by layers of four Hoogsteen-paired guanine residues. Quadruplex-prone sequences are found in many regions of human genome and in the telomeres of all eukaryotic organisms. Since small molecules that target G-quadruplexes have been found to be effective telomerase inhibitors, the identification of new specific ligands for G-quadruplexes is emerging as a promising approach to develop new anticancer drugs. Distamycin A is known to bind to AT-rich sequences of duplex DNA, but it has recently been shown to interact also with G-quadruplexes. Here, isothermal titration calorimetry (ITC) and NMR techniques have been employed to characterize the interaction between a dicationic derivative of distamycin A (compound1) and the [d(TGGGGT)]4quadruplex. Additionally, to compare the binding behaviour of netropsin and compound1to the same target, a calometric study of the interaction between netropsin and [d(TGGGGT)]4has been performed. Experiments show that netropsin and compound1are able to bind to [d(TGGGGT)]4with good affinity and comparable thermodynamic profiles. In both cases the interactions are entropically driven processes with a small favourable enthalpic contribution. Interestingly, the structural modifications of compound1decrease the affinity of the ligand toward the duplex, enhancing the selectivity.

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Theoretical Insight into the Library Screening Approach for Binding of Intermolecular G-Quadruplex RNA and Small Molecules through Docking and Molecular Dynamics Simulation Studies

The Journal of Physical Chemistry B ◽

10.1021/acs.jpcb.0c10991 ◽

2021 ◽

Author(s):

Soma Roy ◽

Asfa Ali ◽

Santanu Bhattacharya

Keyword(s):

Molecular Dynamics ◽

Molecular Dynamics Simulation ◽

Small Molecules ◽

Dynamics Simulation ◽

Library Screening ◽

Simulation Studies ◽

Screening Approach ◽

G Quadruplex ◽

Theoretical Insight ◽

Insight Into

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Nanoporous Gold Disks Functionalized with Stabilized G-Quadruplex Moieties for Sensing Small Molecules

ACS Applied Materials & Interfaces ◽

10.1021/acsami.6b09767 ◽

2016 ◽

Vol 8 (44) ◽

pp. 29968-29976 ◽

Cited By ~ 29

Author(s):

Suyan Qiu ◽

Fusheng Zhao ◽

Oussama Zenasni ◽

Jingting Li ◽

Wei-Chuan Shih

Keyword(s):

Small Molecules ◽

Nanoporous Gold ◽

G Quadruplex

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G-Quadruplexes and Their Ligands: Biophysical Methods to Unravel G-Quadruplex/Ligand Interactions

Pharmaceuticals ◽

10.3390/ph14080769 ◽

2021 ◽

Vol 14 (8) ◽

pp. 769

Author(s):

Tiago Santos ◽

Gilmar F. Salgado ◽

Eurico J. Cabrita ◽

Carla Cruz

Keyword(s):

High Throughput ◽

Resonance Energy Transfer ◽

Resonance Energy ◽

Binding Mode ◽

Titration Calorimetry ◽

Apparent Affinity ◽

G Quadruplex ◽

Ligand Interactions ◽

Types Of Information ◽

Fluorescent Intercalator Displacement

Progress in the design of G-quadruplex (G4) binding ligands relies on the availability of approaches that assess the binding mode and nature of the interactions between G4 forming sequences and their putative ligands. The experimental approaches used to characterize G4/ligand interactions can be categorized into structure-based methods (circular dichroism (CD), nuclear magnetic resonance (NMR) spectroscopy and X-ray crystallography), affinity and apparent affinity-based methods (surface plasmon resonance (SPR), isothermal titration calorimetry (ITC) and mass spectrometry (MS)), and high-throughput methods (fluorescence resonance energy transfer (FRET)-melting, G4-fluorescent intercalator displacement assay (G4-FID), affinity chromatography and microarrays. Each method has unique advantages and drawbacks, which makes it essential to select the ideal strategies for the biological question being addressed. The structural- and affinity and apparent affinity-based methods are in several cases complex and/or time-consuming and can be combined with fast and cheap high-throughput approaches to improve the design and development of new potential G4 ligands. In recent years, the joint use of these techniques permitted the discovery of a huge number of G4 ligands investigated for diagnostic and therapeutic purposes. Overall, this review article highlights in detail the most commonly used approaches to characterize the G4/ligand interactions, as well as the applications and types of information that can be obtained from the use of each technique.

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Ru(II)-Dppz Derivatives and Their Interactions with DNA: Thirty Years and Counting

Applied Sciences ◽

10.3390/app11073038 ◽

2021 ◽

Vol 11 (7) ◽

pp. 3038

Author(s):

Maria Letizia Di Pietro ◽

Giuseppina La Ganga ◽

Francesco Nastasi ◽

Fausto Puntoriero

Keyword(s):

Transition Metal ◽

Metal Complexes ◽

Small Molecules ◽

Transition Metal Complexes ◽

Mechanism Of Action ◽

Spectroscopic Techniques ◽

Biological Applications ◽

Ancillary Ligands ◽

Structural Modifications ◽

Over Time

Transition metal complexes with dppz-type ligands (dppz = dipyrido[3,2-a:2′,3′-c]phenazine) are extensively studied and attract a considerable amount of attention, becoming, from the very beginning and increasingly over time, a powerful tool for investigating the structure of the DNA helix. In particular, [Ru(bpy)2(dppz)]2+ and [Ru(phen)2(dppz)]2+ and their derivatives were extensively investigated as DNA light-switches. The purpose of this mini-review, which is not and could not be exhaustive, was to first introduce DNA and its importance at a biological level and research in the field of small molecules that are capable of interacting with it, in all its forms. A brief overview is given of the results obtained on the Ru-dppz complexes that bind to DNA. The mechanism of the light-switch active in this type of species is also briefly introduced along with its effects on structural modifications on both the dppz ligand and the ancillary ligands. Finally, a brief mention is made of biological applications and the developments obtained due to new spectroscopic techniques, both for understanding the mechanism of action and for cellular imaging applications.

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Design and study of telomerase inhibitors based on G-quadruplex ligands

Biopolymers and Cell ◽

10.7124/bc.000817 ◽

2013 ◽

Vol 29 (3) ◽

pp. 169-176 ◽

Cited By ~ 8

Author(s):

V. V. Negrutska ◽

L. V. Dubey ◽

M. M. Ilchenko ◽

I. Ya. Dubey

Keyword(s):

Telomerase Inhibitors ◽

G Quadruplex

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Novel ruthenium(ii) polypyridyl complexes as G-quadruplex stabilisers and telomerase inhibitors

Dalton Transactions ◽

10.1039/c3dt53547a ◽

2014 ◽

Vol 43 (21) ◽

pp. 7811 ◽

Cited By ~ 16

Author(s):

Guoliang Liao ◽

Xiang Chen ◽

Jingheng Wu ◽

Chen Qian ◽

Hanqiang Wang ◽

...

Keyword(s):

Polypyridyl Complexes ◽

Telomerase Inhibitors ◽

G Quadruplex

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Erratum: Corrigendum: Structural revisions of small molecules reported to cross-link G-quadruplex DNA in vivo reveal a repetitive assignment error in the literature

Scientific Reports ◽

10.1038/srep40471 ◽

2017 ◽

Vol 7 (1) ◽

Author(s):

Paul E. Reyes-Gutiérrez ◽

Tomáš Kapal ◽

Blanka Klepetářová ◽

David Šaman ◽

Radek Pohl ◽

...

Keyword(s):

Small Molecules ◽

Cross Link ◽

Quadruplex Dna ◽

G Quadruplex ◽

Assignment Error

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G-Quadruplex-Based Drug Delivery Systems for Cancer Therapy

Pharmaceuticals ◽

10.3390/ph14070671 ◽

2021 ◽

Vol 14 (7) ◽

pp. 671

Author(s):

Jéssica Lopes-Nunes ◽

Paula Oliveira ◽

Carla Cruz

Keyword(s):

Drug Delivery ◽

Small Molecules ◽

Drug Delivery Systems ◽

Delivery Systems ◽

Nano Particles ◽

Future Research ◽

High Affinity ◽

Dna And Rna ◽

G Quadruplex ◽

Gold Nano Particles

G-quadruplexes (G4s) are a class of nucleic acids (DNA and RNA) with single-stranded G-rich sequences. Owing to the selectivity of some G4s, they are emerging as targeting agents to overtake side effects of several potential anticancer drugs, and delivery systems of small molecules to malignant cells, through their high affinity or complementarity to specific targets. Moreover, different systems are being used to improve their potential, such as gold nano-particles or liposomes. Thus, the present review provides relevant data about the different studies with G4s as drug delivery systems and the challenges that must be overcome in the future research.

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